NO921556L - MATTRESS - Google Patents

Abstract

The invention relates to a support mattress, in particular for hospital beds, consisting of foam material with several layers of the same or different specific density and different compression hardness. In this case, the lying surface (1) of the upper layer (2) is divided by longitudinal and transverse grooves {incisions} (3 and 4) into squares (10) of defined size depending on the loading of the body, and the lower surface of the first layer (2) has an undulating structure (12) which extends into a corresponding undulating structure (13) of the upper surface of a lower layer (11) and interacts therewith flexibly. The surface area of the squares (10) in the region of the head, back and buttocks zones of the lying surface (1) is greater than in the other regions in proportion to the surface loading by these parts of the body. The surface area of the squares (10) decreases starting from the central region up to the longitudinal edge region of the lying surface (1) and is larger once again in the outermost longitudinal edge region. The cross-sections of the grooves (3) bounding the squares are of rectangular and/or pear-shaped and/or droplet-shaped construction. <IMAGE>

Description

The invention relates to a mattress, especially for hospital beds, consisting of foam material with several layers having the same or different specific density and different compression resistance.

Human health is essentially dependent on the body being sufficiently regenerated by sleep. In this connection, a physiologically correct lying position is an important prerequisite as important body functions are supported by a correct lying position, for example blood flow through the tissue, support or relief of the vertebral column and muscles. In a similar way, a non-body-adapted lying position causes damage to the body and its functions. For a body-correct lying position, two essential features of the body must be taken into account, namely the S-shaped vertebral column for a healthy person and the different weights of the individual body parts. Thus, the head area as well as the back and seat zones form the heavy body parts which, with known lying systems, transfer the entire body weight to the surface, while the back parts are often not supported. To remedy this deficiency, moldings and springy frames are adapted to the body's S-shape and are also adjustable to be able to achieve individual adaptation. However, hospital beds do not have such individual adaptability.

However, the springy properties of systems with slats and springy wooden frames and also mattresses with springs are uniform across the length and width of the lying surface, so that different pressure loads occur despite the body's geometric adaptation. If the external system pressure is greater than the pressure of the blood flow, disturbances of blood flow occur which in a healthy person during sleep, will be of relatively short duration as during sleep the body is continuously repositioned. In the case of a bedridden person who is prevented from moving, for example in an intensive care unit or after an operation, pressure points occur on the body which can lead to a life-threatening condition.

The reasons for this and the lack of known sleeping systems are known in and of themselves and various systems have already been tested to avoid these, but these have not, however, been able to solve the problem completely.

important information

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Handwritten remarks or comments have been part of the proceedings, and must not be used to interpret the content of the document.

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Thus, for example, "water mattresses" were developed which to a large extent should adapt to the shape of the body. However, since the water is inelastic and the required elasticity can only be produced by the water container, the results are not satisfactory. In addition, the mattress must have sufficient ventilation to ensure breathing activity. This is particularly important for people who, due to their state of health or their handicap, suffer to a great extent from sweating. A non-breathable mattress prevents evaporation, which can cause skin damage in unfavorable cases.

It is therefore the task of the invention to produce a mattress which exhibits a progressive spring characteristic which is dependent on the partial load of the body's parts and which at the same time causes sufficient ventilation and breathing activity over the entire lying surface.

The solution to this task consists in the initially mentioned mattress in that the upper layer's sleeping surface is divided into squares using longitudinal and transverse grooves, where the size of the squares depends on the load from the body parts and the lower surface in the first layer has a wave shape that stretches into a corresponding wave structure in the upper surface of the lower layer and acts elastically together with this.

According to the invention, the surface of the squares in the head, back and seat area of the lying surface, proportional to the surface load on the basis of the corresponding body parts, is larger than in the other areas. This achieves that the heavy body parts produce a penetration depth in the foam material which is admittedly not equal to the penetration depth of the lighter body parts, but which roughly corresponds to them. With this move, all body parts can contribute to the system, so that the pressure exerted by the substrate against the body is distributed almost uniformly and pressure peaks are eliminated, thus largely undisturbed perfusion of the body's peripheral areas.

In a further development of the invention, the surface of the square decreases from the central area of the lying surface to the edge area and is again larger in the outermost edge area. In this way, a wide edge strip is retained on the outer sides of the mattress, which serves to increase sitting stability. According to the invention, the cross section of the tracks has a rectangular shape and/or a pear shape and/or a drop shape, so that there are different sizes of the support for a square and thus different spring force effects. At the same time, various large horizontal air channels occur which greatly favor the mattress' breathing activity. Depending on the need, the aforementioned cross-sectional shapes can be combined, for example so that there is a rectangle-shaped groove in the surface whose bottom has a dome or pear shape.

In further development of the invention, the lower layer of the mattress has a higher specific density and strength and thus a lower spring elasticity than the upper layer, so that a progressively increasing spring elasticity is thereby formed.

According to the invention, this is favored by a wave-shaped structure of the two layers, the lower surface of the first layer having a wave structure that extends into a corresponding wave structure in the upper surface of the lower layer and cooperates elastically with this. Here, the amplitude of the wave of the lower layer is greater than the amplitude of the waves of the upper layer and the wave crests are all wider than the wave valleys opposite these, so that the waves form air channels and squeeze against each other mutually under load and thereby produce a progressive spring effect. As the lower foam material layer has a greater specific density and strength and thus a greater stiffness than the upper layer, the wave structure of the upper layer can penetrate the wave structure of the lower layer with increasing pressure, as the wave system likewise develops an increasing counterforce and thus exerts a progressive course of force .

In one embodiment of the invention, the two layers are not glued to each other so that there is a possibility of movement between the layers which is slowed down by the differently designed waveforms.

In a modified embodiment of the invention, the layers can also be point-glued. With such a measure, however, the following must be taken into account. To disinfect the mattresses, a thermal treatment is carried out where up to 105°C is achieved. Here, a different behavior can occur between adhesive and foam material, which is avoided to the greatest extent possible when choosing the adhesive. The solvent that is released can also cause disadvantages.

The mattress foam has at least one layer of cells with open pores so that, in addition to the air channels, sufficient breathing activity is ensured.

In a further embodiment of the invention, the entire

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the mattress arranged in an elastic net in such a way that all foam layers are fixed. In this way, you can avoid using adhesive at all. According to the invention, the net is so elastic that the surface tension of the mattress foam material is not increased while its surface friction is reduced to a minimum. In this way, the application and removal of the mattress cover is significantly improved as the foam surface exerts a large amount of friction against the textile fabric.

The invention is described on the basis of the drawing which shows several embodiments, and where figure 1 shows in perspective the upper part of a foam material layer in a mattress, figure 2 shows a partial section through an upper and a lower foam material layer in a mattress and figure 3 shows a floor plan of the mattress schematically to clarify the distribution of cuboid surfaces.

As can be seen from Figure 1, grooves or incisions 4 and 3 extend in the longitudinal direction and in the transverse direction in the lying surface 1 of the foam layer 2, so that a square 10 is formed. The longitudinal and transverse grooves 4 and 3 have in relation to each other partly the same and partly different distances, as will be described later in connection with figure 3.

The shape of the grooves or incisions contributes significantly to the spring-elastic property of the formed square 10. Pear-shaped or drop-shaped grooves or also grooves with parallel side walls can be formed. Combinations of these designs could also be produced, depending on which spring elastic dimensions are desired. Thus, for example, the slot can be designed as a rectangle with a bottom in the shape of a skull or a bulb.

As can be seen from figure 1, the pear-shaped, dome-shaped or also drop-shaped incisions or grooves 7 and 8 form a square with a narrow root or foot area 9 which causes a correspondingly smaller spring force. In this way, any desired spring force variation can be produced in the required areas. At the same time, due to the bulb shape or the skull shape, there is a correspondingly large air channel which advantageously favors the ventilation and thus the breathing activity.

As can be seen from Figure 2, the mattress in this embodiment according to the invention consists of two parts, respectively. layers 2 and 11 which are connected without gluing by means of a wave-shaped structure. The wave structure 12 in the upper layer, which is located on the opposite side of the lying surface 1, thereby engages the wave structure 13 which is located in the upper surface of the lower layer 11. The lower layer 11 material has a higher specific density and strength and thus a lower spring elasticity than the upper layer material.

The wave structures 12 and 13 differ from each other geometrically in that, when pressure is applied to the upper layer, sufficient spring travel is still available. This is achieved by the amplitude A of the lower layer 11 waves being greater than the amplitude B of the upper layer 2 waves and the wave crests C being wider than the width of the wave troughs D lying above, so that the waves form air channels 14 and 15 of different sizes and are squeezed against each other under load. This achieves a progressive spring action, i.e. a continuous increase of the spring force with increasing load. As the two layers are not glued to each other, a movement is achieved by pressure loading. Due to the different geometries of the wave structure, the smaller air channels 15 are first closed when pressure is applied, so that the contact surfaces and thus the spring forces are progressively increased. Correspondingly, a closure of the channels 14 is achieved by further increasing the load. In addition to this beneficial spring effect, these air channels also contribute to ventilation and thus to an increase in breathing activity.

Figure 3 shows the mattress in ground plan. The distance from the grooves or incisions 4, which extend in the longitudinal direction over the lying surface 1, to the grooves or incisions running parallel thereto is different, namely depending on the different load from different body parts. Thus, the distance between the grooves 4 in the central area is approximately three squares of equal size and increases towards the edge of the mattress, so that smaller square surfaces are thereby formed. The outer cuboid surfaces that run around the mattress, however, have a larger cuboid surface which essentially corresponds to the size of the central areas in each row of cubits. With this measure, increased seating stability is achieved.

The distance between the grooves or incisions 3 running across the lying surface 1 is greater in the area with the heavier body parts, namely the head area 16 and the seat area 17, so that larger cuboids 18 are formed, while the distance between the transverse grooves 3 is smaller in the lying surface 1 shoulder and leg areas 19 respectively. 20 and thereby smaller squares 19 appear. The part of the mattress's lying surface 1 which is designed for the lighter shoulder area 19 is thus designed softer than the hip, spine and seat area 17. In this way, an adaptation of the mattress to the various loads from the lying body parts, so that all lying body parts contribute to bearing and the specific surface load is thus reduced.

With this design, it is thus achieved that the pressure depth in the lying surface 1 is not, or only to an insignificant extent, greater for the heavier body parts than for the lighter body parts, so that the entire body surface rests and the specific surface pressure against the heavier body parts is reduced.

Claims (10)

1. Mattress, especially for hospital beds, consisting of foam material with several layers having the same or different specific density and different compression resistance, CHARACTERIZED IN THAT the lying surface (1) of the upper layer (2) is defined with longitudinal and transverse grooves (incisions) (3 , 4) in the form of a straight line, cover parallel^gr^ m^ i^ edges or quadrilaterals (10) with a size that depends on the load from the body, where the lower surface of the first layer (2) has a wave structure (12) which runs into a corresponding wave structure (13) in the upper surface of a lower layer (11) and cooperates elastically with this. 2. A mattress according to claim 1, CHARACTERIZED IN THAT the surface of the squares (10) in the head, back and seat area of the lying surface (1) is proportional to the surface load based on these body parts and greater than in the other areas. 3. Mattress according to claims 1-2, CHARACTERIZED IN THAT the surface of the squares (10) outwards from the central area, decreases towards the edge area of the lying surface (1) and is again larger in the outermost edge area. - 4. Mattress according to claims 1-3, CHARACTERIZED IN THAT the cross-section of the grooves (3) which limit the squares is rectangular and/or pear-shaped and/or drop-shaped. 5. Mattress according to claim 4, CHARACTERIZED IN THAT the cross-section of the grooves in the longitudinal direction of the mattress has a different cross-sectional shape than the grooves in the transverse direction. 6. Mattress according to claims 1-5, CHARACTERIZED IN THAT the lower layer (11) has a higher specific density and/or strength and thus a lower spring elasticity than the upper layer (2). 7. Mattress according to claims 1-6, CHARACTERIZED IN THAT the amplitude (A) of the waves of the lower layer (11) is greater than the amplitude (B) of the waves of the upper layer (2) and that the wave tips are all wider than the opposite ones lying wave valleys (OD), in such a way that the waves form air channels (14, 15), are squeezed against each other under load and produce a progressive spring effect. 8. Mattress according to claims 1-7, CHARACTERIZED IN THAT the foam material comprises at least one layer of cells with open pores. 9. Mattress according to claims 1-8, CHARACTERIZED IN THAT these are located in an elastic net or cover which fixes the position of all foam layers. 10. Mattress according to claims 1-9, CHARACTERIZED IN THAT the lower surface of the first layer (2) has a wave structure (12) which extends into a corresponding wave structure (13) in the upper surface of a lower layer (11) and is spot glued or spot welded to this.